Investigate linear static and normal modes analysis on a model and visualize displacement, factor of safety, percent of yield, tension and compression, von Mises stress, and major principal stress.Īltair Inspire is packaged with a material library including various aluminum, steel, magnesium, and titanium alloys. By utilizing Altair Inspire in the concept design phase, users can arrive at an ideal design concept extremely early in the process and reduce, or even eliminate re-design iterations.Ĭreate, modify, and de-feature solid models using Altair Inspire's modeling tools.Īltair Inspire offers a number of topology options including: optimization objectives, stress and displacement constraints, acceleration, gravity, and temperature loading conditions Inspire helps them to streamline the production of high-performance, quality parts and products. Simulation-driven design equips its users with the tools necessary to accelerate their overall design process. Leveraging simulation-driven design with Inspire early and often in the design process enables costs savings by reducing material usage, re-design iterations, and overall design time. This enables users to ensure a quality and dependable design prior to any prototyping or production. Automatically optimize the fit of PolyNURBS CAD geometry to generative design results with the new PolyNURBS Fit Tool.Īltair Inspire allows users to rapidly explore and assess designs for static loads, normal modes, buckling and motion through an intuitive user experience leveraging its embedded physics engine.Design for additive manufacturing with overhang shape controls to help reduce overhangs to create more self-supporting structures.csv file format with the new Load Cases Table. View and interactively assign loads to load cases and import / export design loads in.Generate optimized lattice and mixed solid - lattice structures, visualize simulation results in 3D, and export lattice designs in a.Forces obtained from a motion analysis are automatically applied as inputs to a structural analysis and optimization, or can be used to determine initial requirements for motors and actuators. Easily generate dynamic motion of complex mechanisms, automatically identifying contacts, joints, springs and dampers.This can lead to reduced costs, development time, material consumption, and product weight. Altair Inspire enhances the concept development process by enabling simulation-driven design to increase your product’s efficiency, strength and manufacturability.